@article { , title = {The MUSE Machine -- an Architecture for Structured Data Flow Computation}, abstract = {Computers employing some degree of data flow organisation are now well established as providing a possible vehicle for concurrent computation. Although data-driven computation frees the architecture from the constraints of the single program counter, processor and global memory, inherent in the classic von Neumann computer, there can still be problems with the unconstrained generation of fresh result tokens if a pure data flow approach is adopted. The advantages of allowing serial processing for those parts of a program which are inherently serial, and of permitting a demand-driven, as well as data-driven, mode of operation are identified and described. The MUSE machine described here is a structured architecture supporting both serial and parallel processing which allows the abstract structure of a program to be mapped onto the machine in a logical way.}, issn = {0288-3635}, issue = {2}, journal = {New Generation Computing}, publicationstatus = {Published}, publisher = {Springer Verlag}, url = {https://nottingham-repository.worktribe.com/output/1025438}, volume = {3}, keyword = {Data Flow, Parallel Computation, non von Neumann architectures, demand-driven, data-driven}, year = {1985}, author = {Brailsford, David F. and Duckworth, R. James} editor = {Moto-oka, T. and Fuchi, K.} }